Electrochemical sensor construction
First Claim
1. Electrochemical sensor construction to determine the oxygen content of gases having a solid electrolyte tube (11) closed at one end (12);
- an electron conductive porous layer (14) at the outside of the tube covering at least part of the surface exposed to the gases;
a first connecting terminal (48) in electrically conductive connection with the conductive layer (14);
an inner conductor (17) on the inside of the tube, and in contact with the inside surface thereof;
a second connecting terminal (52) in electrically conductive connection with the inner conductor (17);
an electrically conductive housing (24,
41) concentrically surrounding the tube and formed to permit ingress of air interiorly of the tube while exposing the outside thereof to the gases, and retaining said terminals in insulated relation with respect thereto;
wherein the solid electrolyte tube (11) is formed with a shoulder (13);
a first electrically insulating spacer ring (20) spacing the shoulder from the housing (24);
a conductive resilient sealing mass (30) in contact with the conductive layer (14) of the solid electrolyte tube (11);
an insulating sealing mass (31) surrounding the conductive sealing mass (30) and spacing the conductive sealing mass (30) from the housing (24,
41) to electrically insulate the conductive sealing mass, and hence the conductive layer (14) with respect to the housing;
a conductive element (34) surrounding the tube and bearing against the electrically conductive sealing mass (30);
first conductive means (37) contacting the conductive element (34) and the first terminal (48);
second conductive means (50) in contact with the inner conductor (17) in the interior of the tube and the second terminal (52);
and an insulating terminal block (43) closing off the housing (24,
41), the connecting terminals (48,
52) being secured in and passing through said terminal block to provide electrically and mechanically accessible terminals to the conductive layer (14) and the second conductor (17) and to electrically insulate the tube, and its terminals from the housing (24,
41).
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Accused Products
Abstract
To provide for insulation between the conductors of a solid electrolyte ion-conductive oxygen measuring tube and a steel housing thereof, for introduction into the exhaust system of an automotive vehicle, the housing is formed with a shoulder against which a ceramic ring is seated, the tube passing through the ring, and likewise being formed with a shoulder seating against the ring. The outer conductor along the tube extends beyond the ring. A resilient electrically conductive mass such as graphite is packed around the tube, and spaced from the inner walls of the housing by a resilient mass of an insulating powder, such as talcum. The tube is held in position by a second insulating ring, the aperture of which is lined with a metallic sleeve contacting the electrically conductive powder and providing a contact connection to a terminal located in an end insulator secured to the housing; the interior of the tube is likewise connected to another terminal located in the insulator.
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Citations
17 Claims
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1. Electrochemical sensor construction to determine the oxygen content of gases having a solid electrolyte tube (11) closed at one end (12);
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an electron conductive porous layer (14) at the outside of the tube covering at least part of the surface exposed to the gases; a first connecting terminal (48) in electrically conductive connection with the conductive layer (14); an inner conductor (17) on the inside of the tube, and in contact with the inside surface thereof; a second connecting terminal (52) in electrically conductive connection with the inner conductor (17); an electrically conductive housing (24,
41) concentrically surrounding the tube and formed to permit ingress of air interiorly of the tube while exposing the outside thereof to the gases, and retaining said terminals in insulated relation with respect thereto;wherein the solid electrolyte tube (11) is formed with a shoulder (13); a first electrically insulating spacer ring (20) spacing the shoulder from the housing (24); a conductive resilient sealing mass (30) in contact with the conductive layer (14) of the solid electrolyte tube (11); an insulating sealing mass (31) surrounding the conductive sealing mass (30) and spacing the conductive sealing mass (30) from the housing (24,
41) to electrically insulate the conductive sealing mass, and hence the conductive layer (14) with respect to the housing;a conductive element (34) surrounding the tube and bearing against the electrically conductive sealing mass (30); first conductive means (37) contacting the conductive element (34) and the first terminal (48); second conductive means (50) in contact with the inner conductor (17) in the interior of the tube and the second terminal (52); and an insulating terminal block (43) closing off the housing (24,
41), the connecting terminals (48,
52) being secured in and passing through said terminal block to provide electrically and mechanically accessible terminals to the conductive layer (14) and the second conductor (17) and to electrically insulate the tube, and its terminals from the housing (24,
41). - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. Automotive type electrochemical sensor construction to determine the oxygen content of gases having
a solid electrolyte tube (11) closed at one end (12); -
an electron conductive porous layer (14) at the outside of the tube covering at least part of the surface exposed to the gases; an inner conductor (17) on the inside of the tube and in contact with the inside surface thereof; a metallic, electrically conductive housing (24,
41) concentrically surrounding the tube and formed to permit ingress of air interiorly of the tube while exposing the outside thereof to the exhaust gases;insulating means (20, 31,
32) located between the housing (24,
41) and the outside of the tube (11) retaining said tube in the housing while insulating the tube from the housing;an insulating terminal block (43) secured to the housing; first electrically conductive means (31, 32,
37) in electrically conductive relation to said electrically conductive layer;a first connecting terminal (48) secured in and passing through said terminal block (43) having an attachment end outside of the housing and a terminal end inside of the housing, the terminal inside of the housing being connected in electrically conductive connection to said first electrically conductive means; second electrically conductive means (49,
50) in electrically conductive connection with the inner conductor (17) of the solid electrolyte tube;and a second connecting terminal (52) having an externally accessible terminal end and an internal terminal end, passing through and being secured to said terminal block (43) and connected in electrically conductive connection with said second electrically conductive means to insulate the solid electrolyte tube (11) from the housing and to provide externally accessible electrical terminals electrically insulated from the housing and electrically separate with respect thereto. - View Dependent Claims (17)
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Specification